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tokenizer.py
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tokenizer.py
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import base64
import os
import string
from dataclasses import dataclass, field
from functools import cached_property, lru_cache
from typing import Dict, List, Optional, Tuple
import tiktoken
LANGUAGES = {
"en": "english",
"zh": "chinese",
"de": "german",
"es": "spanish",
"ru": "russian",
"ko": "korean",
"fr": "french",
"ja": "japanese",
"pt": "portuguese",
"tr": "turkish",
"pl": "polish",
"ca": "catalan",
"nl": "dutch",
"ar": "arabic",
"sv": "swedish",
"it": "italian",
"id": "indonesian",
"hi": "hindi",
"fi": "finnish",
"vi": "vietnamese",
"he": "hebrew",
"uk": "ukrainian",
"el": "greek",
"ms": "malay",
"cs": "czech",
"ro": "romanian",
"da": "danish",
"hu": "hungarian",
"ta": "tamil",
"no": "norwegian",
"th": "thai",
"ur": "urdu",
"hr": "croatian",
"bg": "bulgarian",
"lt": "lithuanian",
"la": "latin",
"mi": "maori",
"ml": "malayalam",
"cy": "welsh",
"sk": "slovak",
"te": "telugu",
"fa": "persian",
"lv": "latvian",
"bn": "bengali",
"sr": "serbian",
"az": "azerbaijani",
"sl": "slovenian",
"kn": "kannada",
"et": "estonian",
"mk": "macedonian",
"br": "breton",
"eu": "basque",
"is": "icelandic",
"hy": "armenian",
"ne": "nepali",
"mn": "mongolian",
"bs": "bosnian",
"kk": "kazakh",
"sq": "albanian",
"sw": "swahili",
"gl": "galician",
"mr": "marathi",
"pa": "punjabi",
"si": "sinhala",
"km": "khmer",
"sn": "shona",
"yo": "yoruba",
"so": "somali",
"af": "afrikaans",
"oc": "occitan",
"ka": "georgian",
"be": "belarusian",
"tg": "tajik",
"sd": "sindhi",
"gu": "gujarati",
"am": "amharic",
"yi": "yiddish",
"lo": "lao",
"uz": "uzbek",
"fo": "faroese",
"ht": "haitian creole",
"ps": "pashto",
"tk": "turkmen",
"nn": "nynorsk",
"mt": "maltese",
"sa": "sanskrit",
"lb": "luxembourgish",
"my": "myanmar",
"bo": "tibetan",
"tl": "tagalog",
"mg": "malagasy",
"as": "assamese",
"tt": "tatar",
"haw": "hawaiian",
"ln": "lingala",
"ha": "hausa",
"ba": "bashkir",
"jw": "javanese",
"su": "sundanese",
"yue": "cantonese",
}
# language code lookup by name, with a few language aliases
TO_LANGUAGE_CODE = {
**{language: code for code, language in LANGUAGES.items()},
"burmese": "my",
"valencian": "ca",
"flemish": "nl",
"haitian": "ht",
"letzeburgesch": "lb",
"pushto": "ps",
"panjabi": "pa",
"moldavian": "ro",
"moldovan": "ro",
"sinhalese": "si",
"castilian": "es",
"mandarin": "zh",
}
@dataclass
class Tokenizer:
"""A thin wrapper around `tiktoken` providing quick access to special tokens"""
encoding: tiktoken.Encoding
num_languages: int
language: Optional[str] = None
task: Optional[str] = None
sot_sequence: Tuple[int] = ()
special_tokens: Dict[str, int] = field(default_factory=dict)
def __post_init__(self):
for special in self.encoding.special_tokens_set:
special_token = self.encoding.encode_single_token(special)
self.special_tokens[special] = special_token
sot: int = self.special_tokens["<|startoftranscript|>"]
translate: int = self.special_tokens["<|translate|>"]
transcribe: int = self.special_tokens["<|transcribe|>"]
langs = tuple(LANGUAGES.keys())[: self.num_languages]
sot_sequence = [sot]
if self.language is not None:
sot_sequence.append(sot + 1 + langs.index(self.language))
if self.task is not None:
task_token: int = transcribe if self.task == "transcribe" else translate
sot_sequence.append(task_token)
self.sot_sequence = tuple(sot_sequence)
def encode(self, text, **kwargs):
return self.encoding.encode(text, **kwargs)
def decode(self, token_ids: List[int], **kwargs) -> str:
token_ids = [t for t in token_ids if t < self.timestamp_begin]
return self.encoding.decode(token_ids, **kwargs)
def decode_with_timestamps(self, token_ids: List[int], **kwargs) -> str:
"""
Timestamp tokens are above other special tokens' id range and are ignored by `decode()`.
This method decodes given tokens with timestamps tokens annotated, e.g. "<|1.08|>".
"""
return self.encoding.decode(token_ids, **kwargs)
@cached_property
def eot(self) -> int:
return self.encoding.eot_token
@cached_property
def transcribe(self) -> int:
return self.special_tokens["<|transcribe|>"]
@cached_property
def translate(self) -> int:
return self.special_tokens["<|translate|>"]
@cached_property
def sot(self) -> int:
return self.special_tokens["<|startoftranscript|>"]
@cached_property
def sot_lm(self) -> int:
return self.special_tokens["<|startoflm|>"]
@cached_property
def sot_prev(self) -> int:
return self.special_tokens["<|startofprev|>"]
@cached_property
def no_speech(self) -> int:
return self.special_tokens["<|nospeech|>"]
@cached_property
def no_timestamps(self) -> int:
return self.special_tokens["<|notimestamps|>"]
@cached_property
def timestamp_begin(self) -> int:
return self.special_tokens["<|0.00|>"]
@cached_property
def language_token(self) -> int:
"""Returns the token id corresponding to the value of the `language` field"""
if self.language is None:
raise ValueError("This tokenizer does not have language token configured")
return self.to_language_token(self.language)
def to_language_token(self, language):
if token := self.special_tokens.get(f"<|{language}|>", None):
return token
raise KeyError(f"Language {language} not found in tokenizer.")
@cached_property
def all_language_tokens(self) -> Tuple[int]:
result = []
for token, token_id in self.special_tokens.items():
if token.strip("<|>") in LANGUAGES:
result.append(token_id)
return tuple(result)[: self.num_languages]
@cached_property
def all_language_codes(self) -> Tuple[str]:
return tuple(self.decode([_l]).strip("<|>") for _l in self.all_language_tokens)
@cached_property
def sot_sequence_including_notimestamps(self) -> Tuple[int]:
return tuple(list(self.sot_sequence) + [self.no_timestamps])
@cached_property
def non_speech_tokens(self) -> Tuple[int]:
"""
Returns the list of tokens to suppress in order to avoid any speaker tags or non-speech
annotations, to prevent sampling texts that are not actually spoken in the audio, e.g.
- ♪♪♪
- ( SPEAKING FOREIGN LANGUAGE )
- [DAVID] Hey there,
keeping basic punctuations like commas, periods, question marks, exclamation points, etc.
"""
symbols = list('"#()*+/:;<=>@[\\]^_`{|}~「」『』')
symbols += (
"<< >> <<< >>> -- --- -( -[ (' (\" (( )) ((( ))) [[ ]] {{ }} ♪♪ ♪♪♪".split()
)
# symbols that may be a single token or multiple tokens depending on the tokenizer.
# In case they're multiple tokens, suppress the first token, which is safe because:
# These are between U+2640 and U+267F miscellaneous symbols that are okay to suppress
# in generations, and in the 3-byte UTF-8 representation they share the first two bytes.
miscellaneous = set("♩♪♫♬♭♮♯")
assert all(0x2640 <= ord(c) <= 0x267F for c in miscellaneous)
# allow hyphens "-" and single quotes "'" between words, but not at the beginning of a word
result = {self.encoding.encode(" -")[0], self.encoding.encode(" '")[0]}
for symbol in symbols + list(miscellaneous):
for tokens in [
self.encoding.encode(symbol),
self.encoding.encode(" " + symbol),
]:
if len(tokens) == 1 or symbol in miscellaneous:
result.add(tokens[0])
return tuple(sorted(result))
def split_to_word_tokens(self, tokens: List[int]):
if self.language in {"zh", "ja", "th", "lo", "my", "yue"}:
# These languages don't typically use spaces, so it is difficult to split words
# without morpheme analysis. Here, we instead split words at any
# position where the tokens are decoded as valid unicode points
return self.split_tokens_on_unicode(tokens)
return self.split_tokens_on_spaces(tokens)
def split_tokens_on_unicode(self, tokens: List[int]):
decoded_full = self.decode_with_timestamps(tokens)
replacement_char = "\ufffd"
words = []
word_tokens = []
current_tokens = []
unicode_offset = 0
for token in tokens:
current_tokens.append(token)
decoded = self.decode_with_timestamps(current_tokens)
if (
replacement_char not in decoded
or decoded_full[unicode_offset + decoded.index(replacement_char)]
== replacement_char
):
words.append(decoded)
word_tokens.append(current_tokens)
current_tokens = []
unicode_offset += len(decoded)
return words, word_tokens
def split_tokens_on_spaces(self, tokens: List[int]):
subwords, subword_tokens_list = self.split_tokens_on_unicode(tokens)
words = []
word_tokens = []
for subword, subword_tokens in zip(subwords, subword_tokens_list):
special = subword_tokens[0] >= self.eot
with_space = subword.startswith(" ")
punctuation = subword.strip() in string.punctuation
if special or with_space or punctuation or len(words) == 0:
words.append(subword)
word_tokens.append(subword_tokens)
else:
words[-1] = words[-1] + subword
word_tokens[-1].extend(subword_tokens)
return words, word_tokens
@lru_cache(maxsize=None)
def get_encoding(name: str = "gpt2", num_languages: int = 99):
vocab_path = os.path.join(os.path.dirname(__file__), "assets", f"{name}.tiktoken")
ranks = {
base64.b64decode(token): int(rank)
for token, rank in (line.split() for line in open(vocab_path) if line)
}
n_vocab = len(ranks)
special_tokens = {}
specials = [
"<|endoftext|>",
"<|startoftranscript|>",
*[f"<|{lang}|>" for lang in list(LANGUAGES.keys())[:num_languages]],
"<|translate|>",
"<|transcribe|>",
"<|startoflm|>",
"<|startofprev|>",
"<|nospeech|>",
"<|notimestamps|>",
*[f"<|{i * 0.02:.2f}|>" for i in range(1501)],
]
for token in specials:
special_tokens[token] = n_vocab
n_vocab += 1
return tiktoken.Encoding(
name=os.path.basename(vocab_path),
explicit_n_vocab=n_vocab,
pat_str=r"""'s|'t|'re|'ve|'m|'ll|'d| ?\p{L}+| ?\p{N}+| ?[^\s\p{L}\p{N}]+|\s+(?!\S)|\s+""",
mergeable_ranks=ranks,
special_tokens=special_tokens,
)
@lru_cache(maxsize=None)
def get_tokenizer(
multilingual: bool,
*,
num_languages: int = 99,
language: Optional[str] = None,
task: Optional[str] = None, # Literal["transcribe", "translate", None]
) -> Tokenizer:
if language is not None:
language = language.lower()
if language not in LANGUAGES:
if language in TO_LANGUAGE_CODE:
language = TO_LANGUAGE_CODE[language]
else:
raise ValueError(f"Unsupported language: {language}")
if multilingual:
encoding_name = "multilingual"
language = language or "en"
task = task or "transcribe"
else:
encoding_name = "gpt2"
language = None
task = None
encoding = get_encoding(name=encoding_name, num_languages=num_languages)
return Tokenizer(
encoding=encoding, num_languages=num_languages, language=language, task=task
)